ATA6562/3 High-Speed CAN Transceiver with Standby Mode Features General Description Fully ISO 11898-2, ISO 11898-2: 2016 and The ATA6562/ATA6563 is a high-speed CAN SAE J2962-2 Compliant transceiver that provides an interface between a controller area network (CAN) protocol controller and CAN FD Ready the physical two-wire CAN bus. Communication Speed up to 5 Mbps The transceiver is designed for high-speed (up to Low Electromagnetic Emission (EME) and High 5 Mbps) CAN applications in the automotive industry, Electromagnetic Immunity (EMI) providing differential transmit and receive capability to Differential Receiver with Wide Common Mode (a microcontroller with) a CAN protocol controller. It Range offers improved electromagnetic compatibility (EMC) ATA6562: Silent Mode and electrostatic discharge (ESD) performance, as well Remote Wake-Up Capability via CAN Bus - as features such as: Wake-Up on Pattern (WUP), as Specified in Ideal passive behavior to the CAN bus when the ISO 11898-2: 2016, 3.8 s Activity Filter Time supply voltage is off Functional Behavior Predictable under All Supply Direct interfacing to microcontrollers with supply Conditions voltages from 3V to 5V (ATA6563) Transceiver Disengages from the Bus When Not Three operating modes together with the dedicated Powered Up fail-safe features make the ATA6562/ATA6563 an RXD Recessive Clamping Detection excellent choice for all types of high-speed CAN High Electrostatic Discharge (ESD) Handling networks, especially in nodes requiring low-power Capability on the Bus Pins mode with wake-up capability via the CAN bus. Bus Pins Protected Against Transients in Automotive Environments Package Types Transmit Data (TXD) Dominant Time-Out ATA6562 ATA6563 Function SOIC SOIC Undervoltage Detection on VCC and VIO Pins TXD STBY TXD STBY 1 8 1 8 CANH/CANL Short-Circuit and Overtemperature GND CANH 2 7 GND 2 7 CANH Protected VCC 3 6 CANL VCC 3 6 CANL Fulfills the OEM Hardware Requirements for LIN, 4 5 RXD NSIL RXD 4 5 VIO CAN and FlexRay Interfaces in Automotive Appli- cations, Rev. 1.3 Qualified According to AEC-Q100 Two Ambient Temperature Grades Available: ATA6563 ATA6562 - ATA6562-GAQW1, ATA6563-GAQW1, 3x 3 VDFN* with 3x 3 VDFN* with ATA6562-GBQW1 and ATA6563-GBQW1 up wettable flanks wettable flanks = +125C to T amb - ATA6562-GAQW0, ATA6563-GAQW0, TXD STBY TXD STBY 1 8 1 8 ATA6562-GBQW0 and ATA6563-GBQW0 up GND GND CANH CANH 2 7 2 7 to T = +150C amb VCC CANL Packages: SOIC8, VDFN8 with Wettable Flanks VCC CANL 3 6 3 6 (Moisture Sensitivity Level 1) RXD RXD NSIL 4 5 VIO 4 5 *Includes Exposed Thermal Pad (EP) see Table 1-2. Applications Classical CAN and CAN FD networks in Automotive, Industrial, Aerospace, Medical and Consumer applications. 2017-2019 Microchip Technology Inc. DS20005790C-page 1ATA6562/3 ATA6562/ATA6563 Family Members Device VIO Pin NSIL Grade 0 Grade 1 VDFN8 SOIC8 Description ATA6562-GAQW0 X X X Standby mode and Silent mode ATA6562-GAQW1 X X X Standby mode and Silent mode ATA6562-GBQW0 X X X Standby mode and Silent mode ATA6562-GBQW1 X X X Standby mode and Silent mode ATA6563-GAQW0 X X X Standby mode, VIO - pin for compatibility with 3.3V and 5V microcontroller ATA6563-GAQW1 X X X Standby mode, VIO - pin for compatibility with 3.3V and 5V microcontroller ATA6563-GBQW0 X X X Standby mode, VIO-pin for compatibility with 3.3V and 5V microcontroller ATA6563-GBQW1 X X X Standby mode, VIO - pin for compatibility with 3.3V and 5V microcontroller Note: For ordering information, see the Product Identification System section. DS20005790C-page 2 2017-2019 Microchip Technology Inc.